protected void computeEdgeAndThreadNo() { Iterator it = iterator(); int numberOfEdge = 0; while (it.hasNext()) { List succList = (List) getSuccsOf(it.next()); numberOfEdge = numberOfEdge + succList.size(); } numberOfEdge = numberOfEdge + startToThread.size(); System.err.println("**number of edges: " + numberOfEdge); System.err.println("**number of threads: " + (startToThread.size() + 1)); /* Set keySet = startToThread.keySet(); Iterator keyIt = keySet.iterator(); while (keyIt.hasNext()){ List list = (List)startToThread.get(keyIt.next()); System.out.println("********start thread:"); Iterator itit = list.iterator(); while (itit.hasNext()){ System.out.println(it.next()); } } */ }
/** * Given an abstract dispatch to an object of type c and a method m, gives a list of possible * receiver methods. */ public List resolveAbstractDispatch(SootClass c, SootMethod m) { c.checkLevel(SootClass.HIERARCHY); m.getDeclaringClass().checkLevel(SootClass.HIERARCHY); checkState(); Iterator<SootClass> classesIt = null; if (c.isInterface()) { classesIt = getImplementersOf(c).iterator(); HashSet<SootClass> classes = new HashSet<SootClass>(); while (classesIt.hasNext()) classes.addAll(getSubclassesOfIncluding(classesIt.next())); classesIt = classes.iterator(); } else classesIt = getSubclassesOfIncluding(c).iterator(); ArraySet s = new ArraySet(); while (classesIt.hasNext()) { SootClass cl = classesIt.next(); if (Modifier.isAbstract(cl.getModifiers())) continue; s.add(resolveConcreteDispatch(cl, m)); } List l = new ArrayList(); l.addAll(s); return Collections.unmodifiableList(l); }
public void outALookupswitchStatement(ALookupswitchStatement node) { List lookupValues = new ArrayList(); List targets = new ArrayList(); UnitBox defaultTarget = null; if (node.getCaseStmt() != null) { int size = node.getCaseStmt().size(); for (int i = 0; i < size; i++) { Object valueTargetPair = mProductions.removeLast(); if (valueTargetPair instanceof UnitBox) { if (defaultTarget != null) throw new RuntimeException("error: can't ;have more than 1 default stmt"); defaultTarget = (UnitBox) valueTargetPair; } else { Object[] pair = (Object[]) valueTargetPair; lookupValues.add(0, pair[0]); targets.add(0, pair[1]); } } } else { throw new RuntimeException("error: switch stmt has no case stmts"); } Value key = (Value) mProductions.removeLast(); Unit switchStmt = Jimple.v().newLookupSwitchStmt(key, lookupValues, targets, defaultTarget); mProductions.addLast(switchStmt); }
AbstractStaticInvokeExpr(SootMethodRef methodRef, List args) { super.methodRef = methodRef; super.argBoxes = new ArrayList(); for (int i = 0; i < args.size(); i++) this.argBoxes.add(Jimple.v().newImmediateBox((Value) args.get(i))); }
public void addVariableDecl(VariableDecl node) { List<VariableDecl> list = (parent == null || state == null) ? getVariableDeclListNoTransform() : getVariableDeclList(); list.addChild(node); }
/** * Returns a <code>ThrowableSet</code> representing the set of exceptions included in <code> * include</code> minus the set of exceptions included in <code>exclude</code>. Creates a new * <code>ThrowableSet</code> only if there was not already one whose contents correspond to * <code>include</code> - <code>exclude</code>. * * @param include A set of {@link RefLikeType} objects representing exception types included in * the result; may be <code>null</code> if there are no included types. * @param exclude A set of {@link AnySubType} objects representing exception types excluded from * the result; may be <code>null</code> if there are no excluded types. * @return a <code>ThrowableSet</code> representing the set of exceptions corresponding to * <code>include</code> - <code>exclude</code>. */ private ThrowableSet registerSetIfNew(Set include, Set exclude) { if (INSTRUMENTING) { registrationCalls++; } if (include == null) { include = Collections.EMPTY_SET; } if (exclude == null) { exclude = Collections.EMPTY_SET; } int size = include.size() + exclude.size(); Integer sizeKey = new Integer(size); List sizeList = (List) sizeToSets.get(sizeKey); if (sizeList == null) { sizeList = new LinkedList(); sizeToSets.put(sizeKey, sizeList); } for (Iterator i = sizeList.iterator(); i.hasNext(); ) { ThrowableSet set = (ThrowableSet) i.next(); if (set.exceptionsIncluded.equals(include) && set.exceptionsExcluded.equals(exclude)) { return set; } } if (INSTRUMENTING) { registeredSets++; } ThrowableSet result = new ThrowableSet(include, exclude); sizeList.add(result); return result; }
/** * Add element to list TypeArgumentList * * @apilevel high-level * @ast method * @declaredat GenericMethods.ast:27 */ public void addTypeArgument(Access node) { List<Access> list = (parent == null || state == null) ? getTypeArgumentListNoTransform() : getTypeArgumentList(); list.addChild(node); }
public List getUseBoxes() { List useBoxes = new ArrayList(); useBoxes.addAll(opBox.getValue().getUseBoxes()); useBoxes.add(opBox); return useBoxes; }
public Object clone() { List argList = new ArrayList(getArgCount()); for (int i = 0; i < getArgCount(); i++) { argList.add(i, Jimple.cloneIfNecessary(getArg(i))); } return new JInterfaceInvokeExpr(Jimple.cloneIfNecessary(getBase()), methodRef, argList); }
private void addBoxToPatch(String aLabelName, UnitBox aUnitBox) { List patchList = (List) mLabelToPatchList.get(aLabelName); if (patchList == null) { patchList = new ArrayList(); mLabelToPatchList.put(aLabelName, patchList); } patchList.add(aUnitBox); }
public List getUseBoxes() { List list = new ArrayList(); for (int i = 0; i < argBoxes.size(); i++) { list.addAll(getArg(i).getUseBoxes()); list.add(getArgBox(i)); } return list; }
/** Returns a list of subinterfaces of c, including itself. */ public List<SootClass> getSubinterfacesOfIncluding(SootClass c) { c.checkLevel(SootClass.HIERARCHY); if (!c.isInterface()) throw new RuntimeException("interface needed!"); List<SootClass> l = new ArrayList<SootClass>(); l.addAll(getSubinterfacesOf(c)); l.add(c); return Collections.unmodifiableList(l); }
private void insertAfter(JPegStmt node, JPegStmt after) { // System.out.println("node: "+node); // System.out.println("after: "+after); // System.out.println("succs of node: "+getSuccsOf(node)); // this must be done first because the succs of node will be chanaged lately List succOfAfter = new ArrayList(); succOfAfter.addAll(getSuccsOf(node)); unitToSuccs.put(after, succOfAfter); Iterator succsIt = getSuccsOf(node).iterator(); while (succsIt.hasNext()) { Object succ = succsIt.next(); List pred = getPredsOf(succ); pred.remove(node); pred.add(after); } List succOfNode = new ArrayList(); succOfNode.add(after); unitToSuccs.put(node, succOfNode); List predOfAfter = new ArrayList(); predOfAfter.add(node); unitToPreds.put(after, predOfAfter); // buildPredecessor(Chain pegChain); }
/** Returns a list of possible targets for the given method and set of receiver types. */ public List resolveAbstractDispatch(List classes, SootMethod m) { m.getDeclaringClass().checkLevel(SootClass.HIERARCHY); ArraySet s = new ArraySet(); Iterator classesIt = classes.iterator(); while (classesIt.hasNext()) s.addAll(resolveAbstractDispatch((SootClass) classesIt.next(), m)); List l = new ArrayList(); l.addAll(s); return Collections.unmodifiableList(l); }
private static List<Unit> searchIfStmts(Body b) { List<Unit> searchResult = new ArrayList<Unit>(); PatchingChain<Unit> statements = b.getUnits(); Iterator<Unit> unitIt = statements.iterator(); // iterate through the Units of the body while (unitIt.hasNext()) { Unit tempUnit = unitIt.next(); // if the unit is a "if statement" if (tempUnit instanceof soot.jimple.internal.JIfStmt) searchResult.add(tempUnit); } return searchResult; }
private List createVariableDeclarationList() { List varList = new List(); for (int j = 0; j < getNumVariableDecl(); j++) { VariableDeclaration v = getVariableDecl(j) .createVariableDeclarationFrom( (Modifiers) getModifiers().fullCopy(), (Access) getTypeAccess().fullCopy()); if (j == 0) v.setStart(start); varList.add(v); } return varList; }
/** Returns a list of direct subclasses of c, including c. */ public List<SootClass> getDirectSubclassesOfIncluding(SootClass c) { c.checkLevel(SootClass.HIERARCHY); if (c.isInterface()) throw new RuntimeException("class needed!"); checkState(); List<SootClass> l = new ArrayList<SootClass>(); l.addAll(classToDirSubclasses.get(c)); l.add(c); return Collections.unmodifiableList(l); }
public void outADeclaration(ADeclaration node) { List localNameList = (List) mProductions.removeLast(); Type type = (Type) mProductions.removeLast(); Iterator it = localNameList.iterator(); List localList = new ArrayList(); while (it.hasNext()) { Local l = Jimple.v().newLocal((String) it.next(), type); mLocals.put(l.getName(), l); localList.add(l); } mProductions.addLast(localList); }
/* throws_clause = throws class_name_list; */ public void outAThrowsClause(AThrowsClause node) { List l = (List) mProductions.removeLast(); Iterator it = l.iterator(); List exceptionClasses = new ArrayList(l.size()); while (it.hasNext()) { String className = (String) it.next(); exceptionClasses.add(mResolver.makeClassRef(className)); } mProductions.addLast(exceptionClasses); }
protected void buildPreds() { buildPredecessor(mainPegChain); Set maps = getStartToThread().entrySet(); for (Iterator iter = maps.iterator(); iter.hasNext(); ) { Map.Entry entry = (Map.Entry) iter.next(); List runMethodChainList = (List) entry.getValue(); Iterator it = runMethodChainList.iterator(); while (it.hasNext()) { Chain chain = (Chain) it.next(); // System.out.println("chain is null: "+(chain == null)); buildPredecessor(chain); } } }
/** * Report the counts collected by instrumentation (for now, at least, there is no need to * provide access to the individual values as numbers). * * @return a string listing the counts. */ public String reportInstrumentation() { int setCount = 0; for (Iterator it = sizeToSets.values().iterator(); it.hasNext(); ) { List sizeList = (List) it.next(); setCount += sizeList.size(); } if (setCount != registeredSets) { throw new IllegalStateException( "ThrowableSet.reportInstrumentation() assertion failure: registeredSets != list count"); } StringBuffer buf = new StringBuffer("registeredSets: ") .append(setCount) .append("\naddsOfRefType: ") .append(addsOfRefType) .append("\naddsOfAnySubType: ") .append(addsOfAnySubType) .append("\naddsOfSet: ") .append(addsOfSet) .append("\naddsInclusionFromMap: ") .append(addsInclusionFromMap) .append("\naddsInclusionFromMemo: ") .append(addsInclusionFromMemo) .append("\naddsInclusionFromSearch: ") .append(addsInclusionFromSearch) .append("\naddsInclusionInterrupted: ") .append(addsInclusionInterrupted) .append("\naddsExclusionWithoutSearch: ") .append(addsExclusionWithoutSearch) .append("\naddsExclusionWithSearch: ") .append(addsExclusionWithSearch) .append("\nremovesOfAnySubType: ") .append(removesOfAnySubType) .append("\nremovesFromMap: ") .append(removesFromMap) .append("\nremovesFromMemo: ") .append(removesFromMemo) .append("\nremovesFromSearch: ") .append(removesFromSearch) .append("\nregistrationCalls: ") .append(registrationCalls) .append("\ncatchableAsQueries: ") .append(catchableAsQueries) .append("\ncatchableAsFromMap: ") .append(catchableAsFromMap) .append("\ncatchableAsFromSearch: ") .append(catchableAsFromSearch) .append('\n'); return buf.toString(); }
protected void testList(List list) { // System.out.println("test list"); Iterator listIt = list.iterator(); while (listIt.hasNext()) { System.out.println(listIt.next()); } }
protected int processModifiers(List l) { int modifier = 0; Iterator it = l.iterator(); while (it.hasNext()) { Object t = it.next(); if (t instanceof AAbstractModifier) modifier |= Modifier.ABSTRACT; else if (t instanceof AFinalModifier) modifier |= Modifier.FINAL; else if (t instanceof ANativeModifier) modifier |= Modifier.NATIVE; else if (t instanceof APublicModifier) modifier |= Modifier.PUBLIC; else if (t instanceof AProtectedModifier) modifier |= Modifier.PROTECTED; else if (t instanceof APrivateModifier) modifier |= Modifier.PRIVATE; else if (t instanceof AStaticModifier) modifier |= Modifier.STATIC; else if (t instanceof ASynchronizedModifier) modifier |= Modifier.SYNCHRONIZED; else if (t instanceof ATransientModifier) modifier |= Modifier.TRANSIENT; else if (t instanceof AVolatileModifier) modifier |= Modifier.VOLATILE; else if (t instanceof AEnumModifier) modifier |= Modifier.ENUM; else if (t instanceof AAnnotationModifier) modifier |= Modifier.ANNOTATION; else throw new RuntimeException( "Impossible: modifier unknown - Have you added a new modifier and not updated this file?"); } return modifier; }
public OnFlyCallGraph(PAG pag) { this.pag = pag; CGOptions options = new CGOptions(PhaseOptions.v().getPhaseOptions("cg")); if (options.all_reachable()) { List entryPoints = new ArrayList(); entryPoints.addAll(EntryPoints.v().all()); entryPoints.addAll(EntryPoints.v().methodsOfApplicationClasses()); Scene.v().setEntryPoints(entryPoints); } callGraph = new CallGraph(); Scene.v().setCallGraph(callGraph); ContextManager cm = CallGraphBuilder.makeContextManager(callGraph); reachableMethods = Scene.v().getReachableMethods(); ofcgb = new OnFlyCallGraphBuilder(cm, reachableMethods); reachablesReader = reachableMethods.listener(); callEdges = cm.callGraph().listener(); }
public String toString() { Iterator it = iterator(); StringBuffer buf = new StringBuffer(); while (it.hasNext()) { JPegStmt u = (JPegStmt) it.next(); buf.append("u is: " + u + "\n"); List l = new ArrayList(); l.addAll(getPredsOf(u)); buf.append("preds: " + l + "\n"); // buf.append(u.toString() + '\n'); l = new ArrayList(); l.addAll(getSuccsOf(u)); buf.append("succs: " + l + "\n"); } return buf.toString(); }
private boolean removeBeginNode() { List heads = getHeads(); if (heads.size() != 1) { // System.out.println("heads: "+heads); // System.out.println("Error: the size of heads is not equal to 1!"); return false; // System.exit(1); } else { JPegStmt head = (JPegStmt) heads.get(0); // System.out.println("test head: "+head); if (!head.getName().equals("begin")) { System.err.println("Error: the head is not begin node!"); System.exit(1); } // remove begin node from heads list heads.remove(0); // set the preds list of the succs of head to a new list and put succs of head into heads Iterator succOfHeadIt = getSuccsOf(head).iterator(); while (succOfHeadIt.hasNext()) { JPegStmt succOfHead = (JPegStmt) succOfHeadIt.next(); unitToPreds.put(succOfHead, new ArrayList()); // put succs of head into heads heads.add(succOfHead); } // remove begin node from inlinee Peg if (!mainPegChain.remove(head)) { System.err.println("fail to remove begin node in from mainPegChain!"); System.exit(1); } if (!allNodes.contains(head)) { System.err.println("fail to find begin node in FlowSet allNodes!"); System.exit(1); } else { allNodes.remove(head); } // remove begin node from unitToSuccs if (unitToSuccs.containsKey(head)) { unitToSuccs.remove(head); } } return true; }
public void convertToBaf(JimpleToBafContext context, List<Unit> out) { Unit u = Baf.v().newLoadInst(getType(), context.getBafLocalOfJimpleLocal(this)); out.add(u); Iterator it = context.getCurrentUnit().getTags().iterator(); while (it.hasNext()) { u.addTag((Tag) it.next()); } }
/* The purpose of this method is to replace the ASTIfElseNode given by the var nodeNumber with the new ASTIfNode and to add the remianing list of bodies after this ASTIfNode The new body is then returned; */ public List<Object> createNewBody(List<Object> oldSubBody, int nodeNumber) { if (newIfNode == null) return null; List<Object> newSubBody = new ArrayList<Object>(); if (oldSubBody.size() <= nodeNumber) { // something is wrong since the oldSubBody has lesser nodes than nodeNumber return null; } Iterator<Object> oldIt = oldSubBody.iterator(); int index = 0; while (index != nodeNumber) { newSubBody.add(oldIt.next()); index++; } // check to see that the next is an ASTIfElseNode ASTNode temp = (ASTNode) oldIt.next(); if (!(temp instanceof ASTIfElseNode)) return null; newSubBody.add(newIfNode); newSubBody.addAll(remainingBody); // copy any remaining nodes while (oldIt.hasNext()) { newSubBody.add(oldIt.next()); } return newSubBody; }
private boolean checkStmt(ASTNode onlyNode, ASTIfElseNode node) { if (!(onlyNode instanceof ASTStatementSequenceNode)) { // only interested in StmtSeq nodes return false; } ASTStatementSequenceNode stmtNode = (ASTStatementSequenceNode) onlyNode; List<Object> statements = stmtNode.getStatements(); if (statements.size() != 1) { // need one stmt only return false; } AugmentedStmt as = (AugmentedStmt) statements.get(0); Stmt stmt = as.get_Stmt(); if (!(stmt instanceof DAbruptStmt)) { // interested in abrupt stmts only return false; } DAbruptStmt abStmt = (DAbruptStmt) stmt; if (!(abStmt.is_Break() || abStmt.is_Continue())) { // interested in breaks and continues only return false; } // make sure that the break is not that of the if // unliekly but good to check SETNodeLabel ifLabel = ((ASTLabeledNode) node).get_Label(); if (ifLabel != null) { if (ifLabel.toString() != null) { if (abStmt.is_Break()) { String breakLabel = abStmt.getLabel().toString(); if (breakLabel != null) { if (breakLabel.compareTo(ifLabel.toString()) == 0) { // is a break of this label return false; } } } } } return true; }
public ASTNode emit_AST() { List<Object> astBody0 = emit_ASTBody(body2childChain.get(ifBody)), astBody1 = emit_ASTBody(body2childChain.get(elseBody)); ConditionExpr ce = (ConditionExpr) ((IfStmt) get_CharacterizingStmt().get_Stmt()).getCondition(); if (astBody0.isEmpty()) { List<Object> tbody = astBody0; astBody0 = astBody1; astBody1 = tbody; ce = ConditionFlipper.flip(ce); } if (astBody1.isEmpty()) return new ASTIfNode(get_Label(), ce, astBody0); else return new ASTIfElseNode(get_Label(), ce, astBody0, astBody1); }